v1.4.7/website/docs/language/functions/try.mdx - terraform - Git at Google

 ---
 page_title: try - Functions - Configuration Language
 description: |-
   The try function tries to evaluate a sequence of expressions given as
   arguments and returns the result of the first one that does not produce
   any errors.
 ---

 # `try` Function

 `try` evaluates all of its argument expressions in turn and returns the result
 of the first one that does not produce any errors.

 This is a special function that is able to catch errors produced when evaluating
 its arguments, which is particularly useful when working with complex data
 structures whose shape is not well-known at implementation time.

 For example, if some data is retrieved from an external system in JSON or YAML
 format and then decoded, the result may have attributes that are not guaranteed
 to be set. We can use `try` to produce a normalized data structure which has
 a predictable type that can therefore be used more conveniently elsewhere in
 the configuration:

 ```hcl
 locals {
   raw_value = yamldecode(file("${path.module}/example.yaml"))
   normalized_value = {
     name   = tostring(try(local.raw_value.name, null))
     groups = try(local.raw_value.groups, [])
   }
 }
 ```

 With the above local value expressions, configuration elsewhere in the module
 can refer to `local.normalized_value` attributes without the need to repeatedly
 check for and handle absent attributes that would otherwise produce errors.

 We can also use `try` to deal with situations where a value might be provided
 in two different forms, allowing us to normalize to the most general form:

 ```hcl
 variable "example" {
   type = any
 }

 locals {
   example = try(
     [tostring(var.example)],
     tolist(var.example),
   )
 }
 ```

 The above permits `var.example` to be either a list or a single string. If it's
 a single string then it'll be normalized to a single-element list containing
 that string, again allowing expressions elsewhere in the configuration to just
 assume that `local.example` is always a list.

 This second example contains two expressions that can both potentially fail.
 For example, if `var.example` were set to `{}` then it could be converted to
 neither a string nor a list. If `try` exhausts all of the given expressions
 without any succeeding, it will return an error describing all of the problems
 it encountered.

 We strongly suggest using `try` only in special local values whose expressions
 perform normalization, so that the error handling is confined to a single
 location in the module and the rest of the module can just use straightforward
 references to the normalized structure and thus be more readable for future
 maintainers.

 The `try` function can only catch and handle _dynamic_ errors resulting from
 access to data that isn't known until runtime. It will not catch errors
 relating to expressions that can be proven to be invalid for any input, such
 as a malformed resource reference.

 ~> **Warning:** The `try` function is intended only for concise testing of the
 presence of and types of object attributes. Although it can technically accept
 any sort of expression, we recommend using it only with simple attribute
 references and type conversion functions as shown in the examples above.
 Overuse of `try` to suppress errors will lead to a configuration that is hard
 to understand and maintain.

 ## Examples

 ```
 > local.foo
 {
   "bar" = "baz"
 }
 > try(local.foo.bar, "fallback")
 baz
 > try(local.foo.boop, "fallback")
 fallback
 ```

 The `try` function will _not_ catch errors relating to constructs that are
 provably invalid even before dynamic expression evaluation, such as a malformed
 reference or a reference to a top-level object that has not been declared:

 ```
 > try(local.nonexist, "fallback")

 Error: Reference to undeclared local value

 A local value with the name "nonexist" has not been declared.
 ```

 ## Related Functions

 * [`can`](/language/functions/can), which tries evaluating an expression and returns a
   boolean value indicating whether it succeeded.
	---
	page_title: try - Functions - Configuration Language
	description: \|-
	The try function tries to evaluate a sequence of expressions given as
	arguments and returns the result of the first one that does not produce
	any errors.
	---

	# `try` Function

	`try` evaluates all of its argument expressions in turn and returns the result
	of the first one that does not produce any errors.

	This is a special function that is able to catch errors produced when evaluating
	its arguments, which is particularly useful when working with complex data
	structures whose shape is not well-known at implementation time.

	For example, if some data is retrieved from an external system in JSON or YAML
	format and then decoded, the result may have attributes that are not guaranteed
	to be set. We can use `try` to produce a normalized data structure which has
	a predictable type that can therefore be used more conveniently elsewhere in
	the configuration:

	```hcl
	locals {
	raw_value = yamldecode(file("${path.module}/example.yaml"))
	normalized_value = {
	name = tostring(try(local.raw_value.name, null))
	groups = try(local.raw_value.groups, [])
	}
	}
	```

	With the above local value expressions, configuration elsewhere in the module
	can refer to `local.normalized_value` attributes without the need to repeatedly
	check for and handle absent attributes that would otherwise produce errors.

	We can also use `try` to deal with situations where a value might be provided
	in two different forms, allowing us to normalize to the most general form:

	```hcl
	variable "example" {
	type = any
	}

	locals {
	example = try(
	[tostring(var.example)],
	tolist(var.example),
	)
	}
	```

	The above permits `var.example` to be either a list or a single string. If it's
	a single string then it'll be normalized to a single-element list containing
	that string, again allowing expressions elsewhere in the configuration to just
	assume that `local.example` is always a list.

	This second example contains two expressions that can both potentially fail.
	For example, if `var.example` were set to `{}` then it could be converted to
	neither a string nor a list. If `try` exhausts all of the given expressions
	without any succeeding, it will return an error describing all of the problems
	it encountered.

	We strongly suggest using `try` only in special local values whose expressions
	perform normalization, so that the error handling is confined to a single
	location in the module and the rest of the module can just use straightforward
	references to the normalized structure and thus be more readable for future
	maintainers.

	The `try` function can only catch and handle _dynamic_ errors resulting from
	access to data that isn't known until runtime. It will not catch errors
	relating to expressions that can be proven to be invalid for any input, such
	as a malformed resource reference.

	~> Warning: The `try` function is intended only for concise testing of the
	presence of and types of object attributes. Although it can technically accept
	any sort of expression, we recommend using it only with simple attribute
	references and type conversion functions as shown in the examples above.
	Overuse of `try` to suppress errors will lead to a configuration that is hard
	to understand and maintain.

	## Examples

	```
	> local.foo
	{
	"bar" = "baz"
	}
	> try(local.foo.bar, "fallback")
	baz
	> try(local.foo.boop, "fallback")
	fallback
	```

	The `try` function will _not_ catch errors relating to constructs that are
	provably invalid even before dynamic expression evaluation, such as a malformed
	reference or a reference to a top-level object that has not been declared:

	```
	> try(local.nonexist, "fallback")

	Error: Reference to undeclared local value

	A local value with the name "nonexist" has not been declared.
	```

	## Related Functions

	* [`can`](/language/functions/can), which tries evaluating an expression and returns a
	boolean value indicating whether it succeeded.